package accounts import ( "errors" "fmt" "testing" "github.com/status-im/status-go/account" e2e "github.com/status-im/status-go/t/e2e" . "github.com/status-im/status-go/t/utils" "github.com/stretchr/testify/suite" ) func TestAccountsTestSuite(t *testing.T) { suite.Run(t, new(AccountsTestSuite)) } type AccountsTestSuite struct { e2e.BackendTestSuite } func (s *AccountsTestSuite) TestAccountsList() { s.StartTestBackend() defer s.StopTestBackend() accounts, err := s.Backend.AccountManager().Accounts() s.NoError(err) // make sure that we start with empty accounts list (nobody has logged in yet) s.Zero(len(accounts), "accounts returned, while there should be none (we haven't logged in yet)") // create an account address, _, _, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) // ensure that there is still no accounts returned accounts, err = s.Backend.AccountManager().Accounts() s.NoError(err) s.Zero(len(accounts), "accounts returned, while there should be none (we haven't logged in yet)") // select account (sub-accounts will be created for this key) err = s.Backend.SelectAccount(address, TestConfig.Account1.Password) s.NoError(err, "account selection failed") // at this point main account should show up accounts, err = s.Backend.AccountManager().Accounts() s.NoError(err) s.Equal(1, len(accounts), "exactly single account is expected (main account)") s.Equal(accounts[0].Hex(), address, fmt.Sprintf("main account is not retured as the first key: got %s, expected %s", accounts[0].Hex(), "0x"+address)) // create sub-account 1 subAccount1, subPubKey1, err := s.Backend.AccountManager().CreateChildAccount("", TestConfig.Account1.Password) s.NoError(err, "cannot create sub-account") // now we expect to see both main account and sub-account 1 accounts, err = s.Backend.AccountManager().Accounts() s.NoError(err) s.Equal(2, len(accounts), "exactly 2 accounts are expected (main + sub-account 1)") s.Equal(accounts[0].Hex(), address, "main account is not retured as the first key") s.Equal(accounts[1].Hex(), subAccount1, "subAcount1 not returned") // create sub-account 2, index automatically progresses subAccount2, subPubKey2, err := s.Backend.AccountManager().CreateChildAccount("", TestConfig.Account1.Password) s.NoError(err, "cannot create sub-account") s.False(subAccount1 == subAccount2 || subPubKey1 == subPubKey2, "sub-account index auto-increament failed") // finally, all 3 accounts should show up (main account, sub-accounts 1 and 2) accounts, err = s.Backend.AccountManager().Accounts() s.NoError(err) s.Equal(3, len(accounts), "unexpected number of accounts") s.Equal(accounts[0].Hex(), address, "main account is not retured as the first key") subAccount1MatchesKey1 := accounts[1].Hex() != "0x"+subAccount1 subAccount1MatchesKey2 := accounts[2].Hex() != "0x"+subAccount1 s.False(!subAccount1MatchesKey1 && !subAccount1MatchesKey2, "subAcount1 not returned") subAccount2MatchesKey1 := accounts[1].Hex() != "0x"+subAccount2 subAccount2MatchesKey2 := accounts[2].Hex() != "0x"+subAccount2 s.False(!subAccount2MatchesKey1 && !subAccount2MatchesKey2, "subAcount2 not returned") } func (s *AccountsTestSuite) TestCreateChildAccount() { s.StartTestBackend() defer s.StopTestBackend() keyStore, err := s.Backend.StatusNode().AccountKeyStore() s.NoError(err) s.NotNil(keyStore) // create an account address, pubKey, mnemonic, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) s.T().Logf("Account created: {address: %s, key: %s, mnemonic:%s}", address, pubKey, mnemonic) acct, err := account.ParseAccountString(address) s.NoError(err, "can not get account from address") // obtain decrypted key, and make sure that extended key (which will be used as root for sub-accounts) is present _, key, err := keyStore.AccountDecryptedKey(acct, TestConfig.Account1.Password) s.NoError(err, "can not obtain decrypted account key") s.NotNil(key.ExtendedKey, "CKD#2 has not been generated for new account") // try creating sub-account, w/o selecting main account i.e. w/o login to main account _, _, err = s.Backend.AccountManager().CreateChildAccount("", TestConfig.Account1.Password) s.EqualError(account.ErrNoAccountSelected, err.Error(), "expected error is not returned (tried to create sub-account w/o login)") err = s.Backend.SelectAccount(address, TestConfig.Account1.Password) s.NoError(err, "cannot select account") // try to create sub-account with wrong password _, _, err = s.Backend.AccountManager().CreateChildAccount("", "wrong password") expectedErr := errors.New("cannot retrieve a valid key for a given account: could not decrypt key with given passphrase") s.EqualError(expectedErr, err.Error(), "create sub-account with wrong password") // create sub-account (from implicit parent) subAccount1, subPubKey1, err := s.Backend.AccountManager().CreateChildAccount("", TestConfig.Account1.Password) s.NoError(err, "cannot create sub-account") // make sure that sub-account index automatically progresses subAccount2, subPubKey2, err := s.Backend.AccountManager().CreateChildAccount("", TestConfig.Account1.Password) s.NoError(err) s.False(subAccount1 == subAccount2 || subPubKey1 == subPubKey2, "sub-account index auto-increament failed") // create sub-account (from explicit parent) subAccount3, subPubKey3, err := s.Backend.AccountManager().CreateChildAccount(subAccount2, TestConfig.Account1.Password) s.NoError(err) s.False(subAccount1 == subAccount3 || subPubKey1 == subPubKey3 || subAccount2 == subAccount3 || subPubKey2 == subPubKey3) } func (s *AccountsTestSuite) TestRecoverAccount() { s.StartTestBackend() defer s.StopTestBackend() keyStore, err := s.Backend.StatusNode().AccountKeyStore() s.NoError(err) // create an acc address, pubKey, mnemonic, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) s.T().Logf("Account created: {address: %s, key: %s, mnemonic:%s}", address, pubKey, mnemonic) // try recovering using password + mnemonic addressCheck, pubKeyCheck, err := s.Backend.AccountManager().RecoverAccount(TestConfig.Account1.Password, mnemonic) s.NoError(err, "recover acc failed") s.False(address != addressCheck || pubKey != pubKeyCheck, "incorrect accound details recovered") // now test recovering, but make sure that acc/key file is removed i.e. simulate recovering on a new device acc, err := account.ParseAccountString(address) s.NoError(err, "can not get acc from address") acc, key, err := keyStore.AccountDecryptedKey(acc, TestConfig.Account1.Password) s.NoError(err, "can not obtain decrypted acc key") extChild2String := key.ExtendedKey.String() s.NoError(keyStore.Delete(acc, TestConfig.Account1.Password), "cannot remove acc") addressCheck, pubKeyCheck, err = s.Backend.AccountManager().RecoverAccount(TestConfig.Account1.Password, mnemonic) s.NoError(err, "recover acc failed (for non-cached acc)") s.False(address != addressCheck || pubKey != pubKeyCheck, "incorrect acc details recovered (for non-cached acc)") // make sure that extended key exists and is imported ok too _, key, err = keyStore.AccountDecryptedKey(acc, TestConfig.Account1.Password) s.NoError(err) s.Equal(extChild2String, key.ExtendedKey.String(), "CKD#2 key mismatch") // make sure that calling import several times, just returns from cache (no error is expected) addressCheck, pubKeyCheck, err = s.Backend.AccountManager().RecoverAccount(TestConfig.Account1.Password, mnemonic) s.NoError(err, "recover acc failed (for non-cached acc)") s.False(address != addressCheck || pubKey != pubKeyCheck, "incorrect acc details recovered (for non-cached acc)") } func (s *AccountsTestSuite) TestSelectAccount() { s.StartTestBackend() defer s.StopTestBackend() // create an account address1, pubKey1, _, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) s.T().Logf("Account created: {address: %s, key: %s}", address1, pubKey1) address2, pubKey2, _, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) s.T().Logf("Account created: {address: %s, key: %s}", address2, pubKey2) // try selecting with wrong password err = s.Backend.SelectAccount(address1, "wrongPassword") expectedErr := errors.New("cannot retrieve a valid key for a given account: could not decrypt key with given passphrase") s.EqualError(expectedErr, err.Error(), "select account is expected to throw error: wrong password used") err = s.Backend.SelectAccount(address1, TestConfig.Account1.Password) s.NoError(err) // select another account, make sure that previous account is wiped out from Whisper cache s.NoError(s.Backend.SelectAccount(address2, TestConfig.Account1.Password)) } func (s *AccountsTestSuite) TestSelectedAccountOnRestart() { s.StartTestBackend() // create test accounts address1, _, _, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) address2, _, _, err := s.Backend.AccountManager().CreateAccount(TestConfig.Account1.Password) s.NoError(err) // make sure that no account is selected by default selectedAccount, err := s.Backend.AccountManager().SelectedAccount() s.EqualError(account.ErrNoAccountSelected, err.Error(), "account selected, but should not be") s.Nil(selectedAccount) // select account err = s.Backend.SelectAccount(address1, "wrongPassword") expectedErr := errors.New("cannot retrieve a valid key for a given account: could not decrypt key with given passphrase") s.EqualError(expectedErr, err.Error()) s.NoError(s.Backend.SelectAccount(address2, TestConfig.Account1.Password)) // stop node (and all of its sub-protocols) nodeConfig := s.Backend.StatusNode().Config() s.NotNil(nodeConfig) preservedNodeConfig := *nodeConfig s.NoError(s.Backend.StopNode()) // make sure that account is still selected selectedAccount, err = s.Backend.AccountManager().SelectedAccount() s.NoError(err) s.NotNil(selectedAccount) s.Equal(selectedAccount.Address.Hex(), address2, "incorrect address selected") // resume node s.NoError(s.Backend.StartNode(&preservedNodeConfig)) // re-check selected account (account2 MUST be selected) selectedAccount, err = s.Backend.AccountManager().SelectedAccount() s.NoError(err) s.NotNil(selectedAccount) s.Equal(selectedAccount.Address.Hex(), address2, "incorrect address selected") // now restart node using RestartNode() method, and make sure that account is still available s.RestartTestNode() defer s.StopTestBackend() // now logout, and make sure that on restart no account is selected (i.e. logout works properly) s.NoError(s.Backend.Logout()) s.RestartTestNode() selectedAccount, err = s.Backend.AccountManager().SelectedAccount() s.EqualError(account.ErrNoAccountSelected, err.Error()) s.Nil(selectedAccount) }